Global ETD Search

41	Development and characterization of waveguide lasers on monoclinic potassium double tungstates Bolaños Rodríguez, Western 01 April 2011 (has links) La realización de esta tesis doctoral permitió confirmar la combinación exitosa de la configuración de láseres guiados y las propiedades espectroscópicas de los dobles tungstatos de potasio y tierra rara para ser usados en la fabricación de dispositivos de óptica integrada. Mediante crecimiento epitaxial en fase líquida (LPE) de capas monocristalinas de KY1-x-yGdxLuy(WO4)2 activadas con Er3+ y Tm3+ se fabricaron guías de onda planas. Usando la composición KY0.58Gd0.22Lu0.17Tm0.03(WO4)2 se demostró por primera vez un láser guiado en los regímenes continuo y pulsado (Q-switch) con emisión a 1.84 m. Combinando técnicas de fotolitografía UV, Ar-ion milling y LPE, se fabricaron guías de onda acanaladas de dos tipos: superficiales y soterradas. Mediante esta novedosa combinación, se demostró por primera vez un láser guiado de Tm3+ con emisión a 1.84 m sin la necesidad de añadir espejos a la guía acanalada soterrada. / The successful combination of the advantages of the waveguide laser geometry and the spectroscopic properties of monoclinic double tungstates was confirmed in this work by the realization of planar and channel waveguide lasers activated with Tm3+. Planar waveguides activated with Er3+ and Tm3+ were fabricated by Liquid Phase Epitaxial growth (LPE) of KY1-x-yGdxLuy(WO4)2 single crystalline layers over KY (WO4)2 substrates. CW and Q-switch laser operation at 1.84 m were, for the first time, demonstrated using the lattice matched composition KY0.58Gd0.22Lu0.17Tm0.03(WO4)2 . Surface channel waveguides were fabricated by structuring the surface of the Er3+ and Tm3+-doped planar waveguides by means of standard UV-photolithography and Ar-ion milling. Buried channel waveguides were fabricated by a novel combination of LPE of the activated layers after structuring of the surface of the KY (WO4)2 substrates by Ar-ion milling. Mirrorles waveguide laser in CW regime was demonstrated using these buried channel waveguides. Double Tungstates Lasers Optical waveguides waveguide lasers integrated optics liquid Phase Epitaxy 53 535 548 6
42	The Development and Processing of Novel Aluminum Powder Metallurgy Alloys for Heat Sink Applications Smith, Logan 06 August 2013 (has links) The objective of this research was to design aluminum powder metallurgy (PM) alloys and processing strategies that yielded sintered products with thermal properties that rivaled those of the cast and wrought aluminum alloys traditionally employed in heat sink manufacture. Research has emphasized PM alloys within the Al-Mg-Sn system. In one sub-theme of research the general processing response of each PM alloy was investigated through a combination of sintering trials, sintered density measurements, and microstructural assessments. In a second, the thermal properties of sintered products were studied. Thermal conductivity was first determined using a calculated approach through discrete measurements of specific heat capacity, thermal diffusivity and density and subsequently verified using a transient plane source technique on larger specimens. Experimental PM alloys achieved >99% theoretical density and exhibited thermal conductivity that ranged from 179 Wm-1K-1 to 225 Wm-1K-1. Thermal performance was largely dominated by the amount of magnesium present within the aluminum grains and in turn, bulk alloy chemistry. Data confirmed that the novel PM alloys were highly competitive with even the most advanced heat sink materials such as wrought 6063 and 6061. Two methods of thermal analysis were employed in order to determine the thermal conductivity of each alloy. This first consisted of individual analysis of the specific heat capacity (Cp), thermal diffusivity (?) and density (?) as a function of temperature for each alloy. The thermal conductivity (K) was subsequently determined through the relationship: K=C_p ??. The second means of thermal analysis was a direct thermal conductivity measure using a transient plane source (TPS). The thermal diffusivity and density of samples were both found to decrease with temperature in a linear fashion. Conversely, the specific heat capacity was found to increase with temperature. The only measured thermal property that appeared to be influenced by the alloy chemistry was the thermal diffusivity (and subsequently the calculated thermal conductivity). Both means of thermal analysis showed high thermal conductivity in alloys with low concentrations of magnesium, demonstrating the significance of having alloying elements in solid solution with aluminum. Overall, several alloys were developed using a press and sinter approach that produced higher levels of thermal conductivity than conventional aluminum heat sink materials. The highest thermal conductivity was achieved by alloy Al-0.6Mg-1.5Sn with a calculated value of 225.4 Wm-1K-1. This novel aluminum PM alloy was found to exceed both wrought 6061 and 6063 (195 and 217 Wm-1K-1 respectively). Furthermore, PM alloy Al-0.6Mg-1.5Sn was found to have a significant advantage over die-cast A390 (142 Wm-1K-1). Aluminum Powder Metallurgy Powder Compaction Liquid Phase Sintering Thermal Conductivity Thermal Diffusivity Heat Capacity Heat Sink
43	The Role of Sulfur during the Cracking of n-Hexadecane and Cold Lake Bitumen with alpha-Fe2O3 and Steam Olson, Blake J Unknown Date No description available. Cold Lake Bitumen Coke Hexadecane Liquid phase cracking Alpha-Fe2O3 Steam
44	Numerical simulation of growth of silicon germanium single crystals Sekhon, Mandeep 23 April 2015 (has links) SixGe1-x is a promising alloy semiconductor material that is gaining importance in the semiconductor industry primarily due to the fact that silicon and germanium form a binary isomorphous system and hence its properties can be adapted to suit the needs of a particular application. Liquid phase diffusion (LPD) is a solution growth technique which has been successfully used to grow single crystals of SixGe1-x. The first part of this thesis discusses the development of a fixed grid solver to simulate the LPD growth under zero gravity condition. Initial melting is modeled in order to compute the shape of the initial growth interface along with temperature and concentration distribution. This information is then used by the solidification solver which in turn predicts the onset of solidification, evolution of the growth interface, and temperature and concentration fields as the solidification proceeds. The results are compared with the previous numerical study conducted using the dynamic grid approach as well as with the earth based experimental results. The predicted results are found to be in good qualitative agreement although certain noticeable differences are also observed owing to the absence of convective effects in the fixed grid model. The second part investigates the effects of crucible translation on the LPD technique using the dynamic grid approach. The case of constant pulling is examined first and compared with the available experimental results. Then a dynamic pulling profile obtained as a part of simulation process is used to achieve the goal of nearly uniform composition crystal. The effect of crucible translation on the interface shape, growth rate, and on the transport process is investigated. Finally, the effect of magnetic field on the LPD growth is examined. / Graduate Numerical simulation Liquid Phase Diffusion Silicon germanium Crystal growth Solidification Melting
45	Alloy element redistribution during sintering of powder metallurgy steels Tahir, Abdul Malik January 2014 (has links) Homogenization of alloying elements is desired during sintering of powder metallurgy components. The redistribution processes such as penetration of liquid phase into the interparticle/grain boundaries of solid particles and subsequent solid-state diffusion of alloy element(s) in the base powder, are important for the effective homogenization of alloy element(s) during liquid phase sintering of the mixed powders. The aim of this study is to increase the understanding of alloy element redistribution processes and their effect on the dimensional properties of the compact by means of numerical and experimental techniques. The phase field model coupled with Navier-Stokes equations is used for the simulations of dynamic wetting of millimeter- and micrometer-sized metal drops and liquid phase penetration into interparticle boundaries. The simulations of solid particle rearrangement under the action of capillary forces exerted by the liquid phase are carried out by using the equilibrium equation for a linear elastic material. Thermodynamic and kinetic calculations are performed to predict the phase diagram and the diffusion distances respectively. The test materials used for the experimental studies are three different powder mixes; Fe-2%Cu, Fe-2%Cu-0.5%C, and Fe-2%(Cu-2%Ni-1.5%Si)-0.5%C. Light optical microscopy, energy dispersive X-ray spectroscopy and dilatometry are used to study the microstructure, kinetics of the liquid phase penetration, solid-state diffusion of the Cu, and the dimensional changes during sintering. The wetting simulations are verified by matching the spreading experiments of millimeter-sized metal drops and it is observed that wetting kinetics is much faster for a micrometer-sized drop compared to the millimeter-sized drop. The simulations predicted the liquid phase penetration kinetics and the motion of solid particles during the primary rearrangement stage of liquid phase sintering in agreement with the analytical model. Microscopy revealed that the C addition delayed the penetration of the Cu rich liquid phase into interparticle/grain boundaries of Fe particles, especially into the grain boundaries of large Fe particles, and consequently the Cu diffusion in Fe is also delayed. We propose that the relatively lower magnitude of the sudden volumetric expansion in the master alloy system could be due to the continuous melting of liquid forming master alloy particles. / <p>QC 20140515</p> Cu redistribution kinetics diffusion phase field modeling powder metallurgy swelling liquid phase sintering
46	Transient liquid phase bonding of an oxide dispersion strengthened superalloy Wei, Suwan January 2002 (has links) Oxide dispersion strengthened (ODS) alloys have been developed with unique mechanical properties. However, in order to achieve commercial application an appropriate joining process is necessary which minimizes disruption to the alloy microstructure. Transient liquid phase (TLP) bonding is a promising joining method, but previous work has shown that the segregation of dispersoids within the joint region results in bonds with poor mechanical strengths. This research work was undertaken to further explore particulate segregation at the joint region when TLP bonding and to develop bonding techniques to prevent it. A Ni-Cr-Fe-Si-B interlayer was used to bond an alloy MA 758. The effects of parent alloy grain size, bonding temperature, and external pressure on the TLP bonding process were investigated. Three melting stages were identified for the interlayer, and the bonding temperature was chosen so that the interlayer was in the semi-solid state during bonding. This novel bonding mechanism is described and applied to counteract the segregation of Y203 dispersoids. The grain size of the parent alloy does not alter the particulate segregation behaviour. It is concluded that a low bonding temperature with moderate pressure applied during bonding is preferable for producing bonds with less disruption to the microstructures of the parent alloy. Joint shear tests revealed that a near parent alloy strength can be achieved. This study also shed some light on choosing the right bonding parameters suitable for joining the complicated alloy systems. A Ni-P interlayer was also used to bond the ODS alloy. Microstructural examination indicated that a thin joint width and less disruption to the parent grain structure were achieved when bonding the alloy in the fine grain state. The time for isothermal solidification was found to be shorter when compared with bonds made with the parent alloy in the recrystallized state. All these observations were attributed to the greater diffusivity of P along the grain boundaries than that of the bulk material. A high Cr content within the parent alloy changes the mechanism of the bonding process. The diffusion of Cr into the liquid interlayer has the effect of raising the solidus temperature, which not only accelerates the isothermal solidification process, but also reduces the extent of parent alloy dissolution. 620
47	Production And Properties Of Glass Bonded Apatite-wollastonite Bioceramics Vakifahmetoglu, Cekdar 01 August 2005 (has links) (PDF) Apatite containing bioceramic materials are considered to be potentially useful for replacement or repair of natural bone. In the present study, the aim was to produce a new composite bioceramic containing crystalline apatite and wollastonite phases with a bimodal grain size distribution. The manufacturing scheme was based on the liquid phase sintering process in which the compacts pressed from powders of apatite (HAP or Si&shy / HAP) and pseudowollastonite was sintered in the presence of a liquid phase. Three distinct fluxing agents, magnesium flux (MCAS), sodium feldspar and sodium frit (NCAS), were prepared to act as additives for generating the liquid phase during sintering. Among those, the use of sodium frit resulted in the expected bimodal microstructural assembly. During the sintering studies, it was discovered that the apatite component of the ceramic was prone to compositional modifications by reaction with the liquid phase. This interaction resulted in a formation of siliconized HAP which crystallized in the form of rod-like grains. Meanwhile wollastonite grains tended to exhibit faceted equiaxed morphology and bonded to rod-like apatite grains with the help of a glassy phase. The results showed significant enhancement in the mechanical properties of apatite-wollastonite composites compared to phase pure hydroxyapatite. For example, the sample with 47.5 wt% Si-HAP2 + 47.5 wt% W + 5 wt% NCASfrit had the highest value of flexural strength, 83.6 MPa, which was almost twice that of hydroxyapatite, 46.3 MPa. The results for other properties such as compressive strength, hardness and fracture toughness also demonstrated the benefit of apatite-wollastonite composite approach. TP Biotechnology 248.13-248.65
48	Transient liquid phase bonding of a third generation gamma-titanium aluminum alloy-Gamma Met PX Butts, Daniel A., Gale, W. F. January 2005 (has links) (PDF) Dissertation (Ph.D.)--Auburn University, 2005. / Abstract. Vita. Includes bibliographic references.
49	Resistência ao choque térmico de carbeto de silício sinterizado via fase líquida / Thermal shock resistance of liquid phase sintered silicon carbide Roberta Monteiro de Mello 13 January 2016 (has links) O comportamento dos materiais cerâmicos quanto à resistência ao choque térmico é um tema de grande interesse, devido às aplicações em que a confiabilidade frente a variações bruscas de temperatura é necessária. Neste trabalho foi estudado como a variação na proporção dos aditivos Y2O3:Al2O3 e diferentes parâmetros no processamento do carbeto de silício sinterizado via fase líquida como, tipo e temperatura de sinterização, podem influenciar na resistência ao choque térmico deste material. As misturas foram preparadas com 90%SiC+10%Y2O3:Al2O3 em mol, variando as proporções molares dos óxidos entre 2:1 e 1:4, com e sem prévia reação dos aditivos. As misturas foram compactadas e sinterizadas em forno resistivo de grafite nas temperaturas de 1750°C, 1850°C e 1950°C e, por prensagem a quente, a 1750°C e 1850°C, sendo avaliadas quanto à densificação. Após análise dos resultados preliminares, a sinterização sem pressão e as misturas com proporções 1:3 e 1:4 de Y2O3:Al2O3 previamente reagidos foram selecionadas para o estudo da resistência ao choque térmico. Os ciclos térmicos foram realizados com aquecimento em temperaturas de 600°C, 750°C e 900°C e resfriamento brusco em água em temperatura ambiente. A avaliação das amostras quanto à resistência ao choque térmico, feita por meio da determinação de módulo de elasticidade, porosidade, resistência à flexão e por análise microestrutural de trincas. As amostras sinterizadas na temperatura de 1950°C são as que apresentam o melhor desempenho em relação à resistência ao choque térmico, enquanto a variação na proporção Y2O3:Al2O3 de 1:3 para 1:4 não altera significativamente esta propriedade. Nas condições utilizadas, a temperatura máxima de aplicação do SiC sinterizado via fase líquida deve ser limitada a 750°C, permitindo seu uso como trocadores de calor, rolamentos, mancais de bombas submersas, turbinas a gás e sensor de motores automotivos e aeronáuticos. / The behavior of ceramic materials towards thermal shock resistance is a topic of great interest, due to applications in which the reliability against sudden temperature variations is required. In this thesis, it was studied how the variation in the proportion of Y2O3:Al2O3 additives and different parameters on the processing of liquid phase sintered silicon carbide may influence thermal shock resistance of this material. Samples were prepared with molar composition 90%SiC+10%Y2O3:Al2O3, by varying oxides molar proportion between 2:1 and 1:4, with and without previous reaction of the additives. Mixtures were compacted and sintered in a resistive graphite furnace at 1750, 1850 and 1950°C, and by hot pressing at 1750 and 1850°C, and evaluated for densification. After analysis of the first results, pressureless sintering and the mixtures with proportions of 1:3 and 1:4 of previously reacted Y2O3:Al2O3 were selected for the study of thermal shock resistance. Thermal cycles were performed by heating at temperatures of 600, 750 and 900°C and sudden cooling in water at room temperature. The evaluation of samples regarding thermal shock resistance was conducted by determination of elasticity modulus, porosity, flexural strength and microstructural analysis of the cracks. The samples sintered at 1950°C temperature are those that exhibit the best performance in relation to thermal shock resistance, while the variation in the proportions Y2O3:Al2O3 from 1:3 to 1:4 do not significantly change this property. Under the conditions used, the maximum temperature for liquid phase sintered SiC application must be limited to 750°C, which allows its use as a component of heat exchanges, bearings, pump bearings, gas turbines and sensors of automotive and aeronautical engines. carbeto de silício choque térmico sinterização via fase líquida liquid phase sintering silicon carbide thermal shock
50	Aplicação da microextração em fase liquida na análise de alguns fármacos antimaláricos e respectivos metabólitos em plasma / Application of liquid-phase microextration to the analysis of some antimalarial drugs and their metabolites in plasma Igor Rafael dos Santos Magalhães 23 September 2009 (has links) Atualmente, a malária é considerada a principal infecção parasitária existente e apresenta distribuição mundial. Dentre as alternativas terapêuticas utilizadas, destacam-se cloroquina (CQ), mefloquina (MQ) e, recentemente, arteméter (ART). Segundo a literatura, estudos farmacocinéticos destes fármacos têm sido dificultados pela ausência de métodos adequados de análise em fluidos biológicos e, no caso dos fármacos quirais (CQ e MQ), com capacidade de determinar os enantiômeros individualmente. Com isso, o objetivo deste trabalho foi avaliar o emprego da microextração em fase líquida (LPME) na preparação de amostras para a determinação destes três fármacos antimaláricos e respectivos metabólitos em plasma. O método para análise enantiosseletiva de CQ e metabólitos teve a LPME como técnica de preparação de amostras, a qual apresentou valores de recuperação no intervalo de 28-66%. Estes analitos foram separados na coluna Chirobiotic V em fase polar-orgânica, com posterior detecção por espectrometria de massas (MS), com interface de eletronebulização (ESI) no modo positivo. O método desenvolvido foi linear no intervalo de 5-500 ng mL-1 para todos os analitos avaliados. A disposição cinética de CQ e do principal metabólito monodesetilcloroquina (DCQ) em ratos sugere enantiosseletividade após administração do fármaco na forma racêmica, com maiores concentrações de (+)-(S)-CQ e (-)-(R)-DCQ. O método para análise dos enantiômeros de MQ e do metabólito aquiral carboximefloquina (CMQ) também foi desenvolvido empregando LPME na preparação das amostras. A extração destes analitos foi realizada em duas etapas para eficaz recuperação dos mesmos (valores entre 35-38%). Os analitos foram separados na coluna Chirobiotic T em fase polarorgânica, com detecção por absorção no ultravioleta em 285 nm. O método apresentou linearidade no intervalo de 50-1500 e 50-3000 ng mL-1 para os enantiômeros de MQ e CMQ, respectivamente. A disposição cinética de MQ em ratos indica enantiosseletividade com maiores concentrações de (+)-(RS)- MQ após administração do fármaco na forma racêmica. A separação cromatográfica em fase reversa de ART e metabólito diidroartemisinina (DHA) foi alcançada utilizando-se coluna contendo Si-Zr-PMTDS como fase estacionária e a detecção destes analitos foi realizada empregando-se MS no modo ESI positivo. O procedimento otimizado de LPME em duas fases para extração de ART e DHA em plasma resultou em valores de recuperação de 32 e 25%, respectivamente. O método desenvolvido foi linear no intervalo de 5- 1000 ng mL-1 para ambos os analitos. O estudo piloto de disposição cinética em ratos evidenciou maiores concentrações de DHA. Os resultados obtidos confirmam a viabilidade da LPME para extração destes antimaláricos e respectivos metabólitos em plasma. / Currently, malaria is the main parasitic infection and shows worldwide distribution. Among therapeutic options used, chloroquine (CQ), mefloquine (MQ) and, more recently, artemether (ART) have been standing out. According to the literature, pharmacokinetic studies of these drugs have been hampered by the lack of proper methods of analysis in biological fluids and, regarding the chiral drugs (CQ and MQ), with the ability to determine the individual enantiomers. Therefore, the aim of this work was to evaluate the utilization of liquid-phase microextraction as the sample preparation technique for the determination of these antimalarial drugs and their metabolites in plasma. The enantioselective analysis of CQ and its metabolites was carried out using LPME as technique of sample preparation, which yielded recovery rates within 28- 66%. These analytes were resolved on a Chirobiotic V column in the polarorganic mode and further detected using mass spectrometry (MS) with electrospray interface (ESI) in the positive mode. The developed method was linear in the range of 5-500 ng mL-1 for all analytes studied. The kinetic disposition of CQ and its main metabolite monodesethylchloroquine (DCQ) in rats suggests enantioselectivity following the administration of the racemic drug, with higher concentrations of (+)-(S)-CQ and (-)-(R)-DCQ. The method for the analysis of the enantiomers of MQ and its achiral metabolite carboxymefloquine (CMQ) also had LPME as technique of sample preparation. The extraction of these analytes was carried out in two-steps to obtain efficient recovery rates (values within 35-38%). The analytes were resolved on a Chirobiotic T column in polar-organic mode and ultraviolet detection was performed at 285 nm. The method was linear in the range of 50-1500 and 50-3000 ng mL-1 for the enantiomers of MQ and CMQ, respectively. The kinetic disposition of MQ in rats indicates enantioselectivity with higher concentrations of (+)-(RS)-MQ following the administration of the racemic drug. The chromatographic resolution of ART and its metabolite dihydroartemisinin (DHA) in the reversed mode was achieved utilizing a column containing Si-Zr-PMTDS as stationary phase and their detection was conducted employing MS in the positive ESI mode. The optimized two-phase LPME procedure for the extraction of ART and DHA from plasma showed recovery values of 32 and 25%, respectively. The developed method was linear over the range of 5-1000 ng mL-1 for both analytes. The pilot study of kinetic disposition in rats showed higher concentrations of DHA. The obtained results confirm the feasibility of LPME for the extraction of these antimalarial drugs and their metabolites from plasma. antimaláricos cromatografia líquida microextração em fase líquida plasma antimalarials liquid chromatography liquid-phase microextraction plasma

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